Abstract Two-dimensional (2D) nanomaterials are an emerging class of biomaterials with
remarkable potential for biomedical applications. The planar topography of these …

In nature, the self-assembly of sequence-specific biopolymers into hierarchical structures
plays an essential role in the construction of functional biomaterials. To develop synthetic …

Developing tunable and stable peroxidase mimetics with high catalytic efficiency provides a
promising opportunity to improve and expand enzymatic catalysis in lignin depolymerization …

Emerging contaminants generated due to industrialization have shrunken fresh water
bodies. Nanofiltration membranes are relatively efficient at separating contaminants of …

The detoxification of lethal organophosphate (OP) residues in the environment is crucial to
prevent human exposure and protect modern society. Despite serving as excellent catalysts …

The self-assembly of molecules in two dimensions (2D) is gathering attention from all
disciplines across the chemical sciences. Attracted by the interesting properties of two …

Conspectus Natural organisms make a wide variety of exquisitely complex, nano-, micro-,
and macroscale structured materials in an energy-efficient and highly reproducible manner …

Peptoids (N-substituted glycines) are a class of tailorable synthetic peptidomic polymers.
Amphiphilic diblock peptoids have been engineered to assemble 2D crystalline lattices with …

Biomolecular self‐assembly of hierarchical materials is a precise and adaptable bottom‐up
approach to synthesizing across scales with considerable energy, health, environment …

Abstract Two‐dimensional (2D) assemblies of water‐soluble block copolymers have been
limited by a dearth of systematic studies that relate polymer structure to pathway mechanism …